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Substance s has Imax = 485 nm. Two 50 mL aliquots of an aqueous solution S...
Substance s has Imax = 485 nm. Two 50 mL aliquots of an aqueous solutions are...
Substance s has Imax = 485 nm. Two 50 mL aliquots of an aqueous solutions are transferred to two different 100 mL volumetric flasks. 25.0 mL of 200.0 ppm S are added to the second flask. Both flasks are then diluted to 100.0 mL with distilled water. At 485 nm, the first flask has A = 0.589 and the second has A = 3.72. Calculate the concentration of Sin the original solution. Select one: O A. None of these O...
Substance s has λmax = 485 nm. Two 50 mL aliquots of an aqueous solution S...
Substance s has λmax = 485 nm. Two 50 mL aliquots of an aqueous solution S are transferred to two different 100 mL volumetric flasks. 25.0 mL of 200.0 ppm S are added to the second flask. Both flasks are then diluted to 100.0 mL with distilled water. At 485 nm, the first flask has A = 0.589 and the second has A = 3.72. Calculate the concentration of S in the original solution.
Question 8 Not yet answered Points out of 1.00 P Flag question Substances has Amax =...
Question 8 Not yet answered Points out of 1.00 P Flag question Substances has Amax = 485 nm. Two 50 mL aliquots of an aqueous solution S are transferred to two different 100 ml volumetric flasks. 25,0 mL of 200.0 ppm S are added to the second flask. Both flasks are then diluted to 100.0 mL with distilled water. At 485 nm, the first flask has A = 0.589 and the second has A = 3.72. Calculate the concentration of...
A student pipets 5.00 mL of a 5.103 M aqueous NaOH solution into a 250.00 mL...
A student pipets 5.00 mL of a 5.103 M aqueous NaOH solution into a 250.00 mL volumetric flask and dilutes up to the mark with distilled water. What is the final molarity of the dilute solution? Select one: A. 0.1 MX B. 0.10206 M C. 0.102 M D. 0.1021 M Your answer is incorrect. 86.14 mL of an acid solution was needed to neutralize 30.24 mL of a base solution of unknown concentrations. A second trial is run but this...
I need it right now, please help me?? PROCEDURE PART I: DILUTING THE VINEGAR SOLUTION The...
I
need it right now, please help me??
PROCEDURE PART I: DILUTING THE VINEGAR SOLUTION The vinegar solution must be diluted by a factor of 5 to be suitable for titration. 1. Obtain - 20 ml of the stock vinegar solution from the fume hood. 2. Using the 10-ml. pipet, pipet" 10 mL of the stock solution to a 50-ml volumetric flask. 3. Fill the volumetric flask to the calibration line with distilled water. Be sure not to go over...
Substance s has Imax = 485 nm. Two 50 mL aliquots of an aqueous solutions are transferred to two different 100 mL volumetric flasks. 25.0 mL of 200.0 ppm S are added to the second flask. Both flasks are then diluted to 100.0 mL with distilled water. At 485 nm, the first flask has A = 0.589 and the second has A = 3.72. Calculate the concentration of Sin the original solution. Select one: O A. None of these O...
Question 8 Not yet answered Points out of 1.00 P Flag question Substances has Amax = 485 nm. Two 50 mL aliquots of an aqueous solution S are transferred to two different 100 ml volumetric flasks. 25,0 mL of 200.0 ppm S are added to the second flask. Both flasks are then diluted to 100.0 mL with distilled water. At 485 nm, the first flask has A = 0.589 and the second has A = 3.72. Calculate the concentration of...
A student pipets 5.00 mL of a 5.103 M aqueous NaOH solution into a 250.00 mL volumetric flask and dilutes up to the mark with distilled water. What is the final molarity of the dilute solution? Select one: A. 0.1 MX B. 0.10206 M C. 0.102 M D. 0.1021 M Your answer is incorrect. 86.14 mL of an acid solution was needed to neutralize 30.24 mL of a base solution of unknown concentrations. A second trial is run but this...
I
need it right now, please help me??
PROCEDURE PART I: DILUTING THE VINEGAR SOLUTION The vinegar solution must be diluted by a factor of 5 to be suitable for titration. 1. Obtain - 20 ml of the stock vinegar solution from the fume hood. 2. Using the 10-ml. pipet, pipet" 10 mL of the stock solution to a 50-ml volumetric flask. 3. Fill the volumetric flask to the calibration line with distilled water. Be sure not to go over...
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